SU1048050A1 - Apparatus for compression testing of soil - Google Patents

Abstract

1. A DEVICE FOR COMPRESSION TESTS OF GROUNDS, including a high-pressure working chamber, a loading mechanism, and a device for measuring longitudinal and transverse deformations, which is designed in order to improve the accuracy of testing by eliminating lateral deformation of the sample, the device is equipped with an automatic device maintaining zero transverse deformation, consisting of a transverse deformation sensor and an actuator connected to it, and the diameter of the rod is less than the diameter of the working chamber st pressure. 2. The device according to claim 1, characterized in that the transverse strain sensor is in the form of a spring clip with a bellows, and the actuator is made in the form of a needle valve installed in the housing of the actuator, and the bellows connected by means of an adjusting clutch with a needle valve. 4 СХ О О1

Description

The invention relates to the construction, in particular, to devices for studying the physicomechanical properties of soils, and can be used to study the deformation characteristics of soil bases. A device for studying soil compression tests, including a high-pressure working chamber, a load, and measuring device ij, is known. The closest to the invention in technical essence and the achieved result is a device for compression studies of soils, including a high-pressure working chamber, a loading mechanism and a device for measuring longitudinal and transverse strains 2. The disadvantage of such arrangements is that they do not ensure complete elimination of the lateral deformation of the sample during its longitudinal loading caused by the compressibility of any liquid due to the compression of the air dissolved in it and possible labor with noticeable leaks in the joints of the chamber and the stem with the lid. . I. The purpose of the invention is to improve the accuracy of testing by eliminating side deformation of the soil. This goal is achieved by the fact that a device for compression testing of primers, including a high-pressure working chamber, a loading mechanism and a device for measuring longitudinal and transverse deformations, is equipped with an automatic support for zero-transverse deformation consisting of a transverse deformation sensor. and an actuator connected to it, and the diameter of the stem is smaller than the diameter of the high-pressure working chamber. At the same time, the transverse strain sensor is designed as a spring clip, with a bellows, and the executive mechanism is in the form of a needle valve installed in the housing of the tagging mechanism, and a bellow valve, which is inertia through an adjustable coupling with a needle valve. . FIG. 1 shows a device for compression testing of soils; a general view; in fig. 2 .- working, camera device with a sample and transverse strain sensor on it, (section A-A in Fig. 1); in fig. 3 actuator. The device consists of a housing 1, c. which is placed the test sample 2 in a thin rubber shell (not shown), having the shape of a cylinder, bottom 3 and top 4 bottoms, forming with a flexible shell a working high pressure chamber, a pneumatic hydraulic system consisting of a can of compressed air 5, an actuator 6 A tube 7 with a transverse strain sensor 8, a cylinder 9 partially filled with water, and a pressure gauge 10 for measuring the pressure of water in the working chamber 11 of the device. The loading mechanism includes a small diameter rod 12, an upper die 13, a lever 14, blocks 15, vessels 16 and 17 for out, connected by a pipe to a valve 18. A spring dynamometer is used to measure the vertical pressure on the sample. The lever is balanced by a counterweight 20. Vertical deformation of the sample is fixed with a dial gauge 21. The actuating mechanism 6 consists of an adjusting clutch 22, a gig 23, a needle valve 24 of the conduit 25 and a bellows 26 connected by a tube 7 with the bellows of the sensor 8. The device works as follows . After the sample has been fabricated and the device is assembled, the lever 14 is counterbalanced by the counterweight 20 and the adjusting clutch 22 (FIG. 3), reducing the length of the string 23. 23. Open the needle valve 24 of the actuator, b, d release the compressed air from the cylinder 5 to the pipeline 25, running; in the working chamber 11, and the initial pressure is set on the pressure gauge 10, for example 0.01 MPa. At the same time, in the closed cavity of the bellows, located on the sample sensor 8, in the cavity of the bellows 26 of the actuator and in the cavity of the tube 7 connecting them, filled with an incompressible fluid, such as deaerated water, there is a slight pressure. If, at the initial pressure in the high pressure chamber, the diameter of the sample begins to decrease, i.e. transverse deformation occurs, the spring clip, following this deformation, transmits its elastic response to a bellows in which the fluid pressure rises. Increasing the pressure in the sensor bellows causes a corresponding increase in pressure and in the bellows 26 of the actuator b, the bellows lengthens, the valve 24 closes and stops the flow of compressed air into the working chamber (Fig. 3). . After installing the zero readings of the indicator 21 and the dynamometer 19, the valve 18 is opened, and water from the tank 17 slowly flows into the tank 16 on the suspension of the system of levers 14 and blocks 15. There is a vertical loading of the sample, which during the experiment, deforms in the vertical direction, tends to deform also in the transverse direction. At the same time, the pressure in the bellows of the sensor 8 decreases, which causes a shortening of the bellows 26 on the actuator b and the opening of the needle valve 24. The pressure in the chamber whose chamber rises and stops the specimen lateral deformation, etc. The test is carried out until all the water flows out of the tank 17, in which the mass of water is calculated in advance. In this case, the sample is deformed only in the vertical direction and is not broken. During the test, the readings of the dynamometer 19, the pressure gauge 10 and the indicator 21 are recorded.

Thus, the device provides reliable automatic elimination of transverse deformations of the sample, which occurred during the vertical deformation of the sample due to compressing, dissolved and trapped air, deformation of the working chamber body and possible hardly noticeable and controlled leaks in the system, and most importantly, at the location of the stem and the top cover, as a result, the reliability of the results of soil compression tests in the proposed device as compared with the known ones has significantly increased

1ts.

Claims (2)

1. DEVICE FOR COMPRESSION TESTS OF SOILS, including a working chamber of high pressure, a loading mechanism, and a device for measuring longitudinal and transverse deformations, which consists in that, in order to increase the accuracy of tests by eliminating lateral deformation of the sample, the device is equipped with a device automatic maintenance of zero lateral deformation, consisting of a transverse strain gauge and an actuator connected to it, and the rod diameter is less than the diameter of the working chamber of high d avleniya. 2. The device according to π. 1, characterized in that the transverse strain sensor is made in the form of a spring clip with a bellows, and the actuator is made in the form of a needle valve installed in the housing of the actuator and a bellows connected by means of an adjusting sleeve to a needle valve. 77777777 ^g 72-77777 // 7> // 2/22 /> 2 /// 7/2 /// Ur> //// _/ Figure 1 Joint venture